31, August 2021 |
Authors:
Adnan Khandker Haq Chaity Khalek Nazim Kaitsuka Tomizawa Mie Kobatake Ahmed Ali Khondoker Haque JamiruddinBackground: Rapid increase in COVID-19 suspected cases has rendered disease diagnosis challenging, mainly depending upon RT-qPCR. Reliable, rapid, and cost-effective diagnostic assays that complement RT-qPCR should be introduced after thoroughly evaluating their performance upon various disease phases, viral load, and sample storage conditions. Objective: We investigated the correlation of cycle threshold (Ct) value, which implies the viral load and infection phase, and the storage condition of the clinical specimen with the diagnosis of SARS-CoV -2 through our newly developed in-house rapid enzyme-linked immunosorbent assay (ELISA) system. Method: Naso-oropharyngeal samples of 339 COVID-19 suspected cases were collected and evaluated through RT-qPCR that were stored up to 30 days in different conditions (i.e. −80°C, −20°C and initially at 4°C followed by −80°C). The clinical specimens were evaluated with our in-house ELISA system after finalizing the assay method through checkerboard assay and minimizing the signal/noise ratio. Result: The ELISA system showed the highest sensitivity (92.9%) for samples with Ct ≤30 and preserving at −80°C temperature. The sensitivity reduced proportionally with increasing Ct value and preserving temperature. However, the specificity ranged between 98.3% and 100%. Conclusion: The results indicate the necessity of early infection phase diagnosis and lower temperature preservation of samples to perform rapid antigen ELISA tests.
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